JP2011015573A - Electromagnetic starter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an electromagnetic starter capable of reducing power amount to maintain energization.SOLUTION: At least two sets of drive coils 102', 112' installed on an electromagnetic starter 102 are controlled via a switch device 101, and relatively lower impedances are connected in parallel or series to energize and activate the starter. A larger electromotive force is generated in the electromagnetic starter 102, which is controlled via the switch device 101 after activation, and a drive coil of only part of the drive coils 102' and 112' is switched to energization and excitation, thereby reducing the total current of the drive coils. Meanwhile, the electromagnetic starter 102 still satisfies sufficient operation characteristics after energization and activation, electric energy is saved and thermal loss of the drive coils 102', 112' is reduced.

Description

  The present invention provides two sets or two or more sets to be installed in the same electromagnetic starter by controlling the switch device through the same electromagnetic starter that produces an electromagnetic starting effect for the installation of two or more sets of energizing drive coils. By energizing and starting the drive coil, the relatively lower impedance is connected in parallel or in series. After activation of the electromagnetic starter, the total current of the drive coil is reduced by controlling through the switch device and switching the drive coil so that only a part of the drive coil is energized and excited. However, the electromagnetic starter still satisfies the necessary operating characteristics after the start of energization, saves electrical energy, and reduces the thermal damage of the drive coil of the electromagnetic starter.

  Conventionally, an electromagnetic starter is driven by applying an electric current to a drive coil to produce an electromagnetic starting effect. If the coil energization state is not changed when the energization, activation, and energization start states are maintained, the necessary activation excitation current is the same as the maintenance of the energization start current. Its drawbacks are significant heat damage and waste of electrical energy.

  The present invention improves an energization maintaining type electromagnetic starter, and is an innovative invention that reduces the amount of electricity for maintaining energization of, for example, an electromagnetic clutch, an electromagnetic brake, an electromagnetic force drive relay, an electromagnetic switch, an electromagnetic valve, etc. It is.

  The present invention is an electromagnetic starter that maintains a part of energization and activation by a kind of parallel connection. Controls the same electromagnetic starter with two sets or two or more sets of drive coils through the switch device, normally closed or normally open electromagnetic brake, normally closed or normally open electromagnetic clutch, normally closed or normally open electromagnetic switch The electromagnetic starter having an electromagnetic start effect is driven through a normally closed or normally open electromagnetic relay, a normally closed or normally open electromagnetic valve, an electric magnet, an electromagnetic lock, a helical coil, or other drive coils. Alternatively, it includes application to a drive coil and an electromagnetic starter capable of multi-mode operation through human or mechanical power. By controlling two sets or two or more sets of drive coils installed in the same electromagnetic starter through the switch device and connecting relatively lower impedances in parallel or in series and parallel, they are energized and activated. The electromagnetic starter is caused to generate a larger electromagnetic starting force, and after starting, it is further controlled through a switch device. The above-described two sets or two or more sets of drive coils reduce the total current of the drive coils by switching only a part of the drive coils to energize and excite them. However, the electromagnetic starter still satisfies the necessary operating characteristics after the start of energization, saves electrical energy, and reduces the thermal damage of the drive coil of the electromagnetic starter.

It is a circuit diagram showing a circuit in which two or more sets of drive coils of an electromagnetic starter according to an embodiment of the present invention are installed. FIG. 3 is a circuit diagram illustrating a circuit for connecting relatively lower impedances in parallel or in series-parallel of an electromagnetic starter according to an embodiment of the present invention. It is a circuit diagram which shows the circuit by which the one part drive coil of the electromagnetic starter by one Embodiment of this invention is energized and excited. It is a circuit diagram which shows the circuit which controls a drive coil by installing the position detection apparatus of the electromagnetic starter by one Embodiment of this invention.

(One embodiment)
An electromagnetic starter according to an embodiment of the present invention controls the same electromagnetic starter in which two sets or two or more sets of drive coils are installed through a kind of switch device. For example, normally closed or normally open electromagnetic brake, normally closed or normally open electromagnetic clutch, normally closed or normally open electromagnetic switch, normally closed or normally open electromagnetic relay, normally closed or normally open electromagnetic An electromagnetic starter that can drive an electromagnetic starter with an electromagnetic start effect with a drive coil through a valve, an electromagnet, an electromagnetic lock, a spiral tube coil, or the like, or a multi-type operation that can be operated by a human or mechanical force through the drive coil It is. By controlling two sets or two or more sets of drive coils installed in the same electromagnetic starter through the switch device and connecting relatively lower impedances in parallel or in series and parallel, they are energized and activated. The electromagnetic starter is caused to generate a larger electromagnetic starting force, and after starting, it is further controlled through a switch device. By controlling the above-described two sets or two or more sets of drive coils and switching only a part of the drive coils to energize excitation, the total current of the drive coils is reduced. However, the electromagnetic starter still satisfies the necessary operating characteristics after the start of energization, saves electrical energy, and reduces the thermal damage of the drive coil of the electromagnetic starter.
Here, an electromagnetic starter in which two sets of drive coils are installed will be described as follows.
FIG. 1 shows a circuit diagram of a circuit that maintains a part of energization and activation by installing two or more sets of drive coils in the same electromagnetic starter of this embodiment and connecting them in parallel. Its main configuration includes the following.

  The switch device 101 is configured by a relay, an electromagnetic switch, and a solid phase switch device that operates an electromechanical switch with human power, mechanical power, fluid power, and electric energy. By controlling the operation of human power, mechanical power, fluid power, and electric energy, AC or DC electric energy is transported to at least two sets of drive coil 102 ′ and drive coil 112 ′ installed in the same electromagnetic starter 102 and energized. Alternatively, the switch function of power interruption is operated, or switching is performed through the switch device 101. The at least two sets of drive coil 102 'and drive coil 112' of the electromagnetic starter 102 are first energized and activated by connecting them in parallel or series-parallel with a relatively lower impedance, and separately excited current Ia and excited current Ib. Energize. FIG. 2 shows a circuit diagram of a circuit that is energized and activated by connecting a relatively lower impedance of the embodiment of FIG. 1 in parallel or series-parallel. By connecting a relatively lower impedance in parallel or in series and parallel, after energization and activation, control is further performed through the switch device 101 so that only a part of the drive coils 102 ′ and 112 ′ are energized. Switch. For example, the exciting current Ia is applied only to the drive coil 102 '. FIG. 3 shows a circuit diagram of a circuit in which a part of the drive coil 102 ′ in the embodiment of FIG. 1 is energized and excited. When energizing some of the drive coils 102 ', the total current of the drive coils is reduced. However, the acting force of the electromagnetic effect can still ensure the necessary operating characteristics after the electromagnetic starter 102 is energized, save electrical energy, and reduce the heat generation of the electromagnetic starter 102.

The electromagnetic starter 102 of this embodiment controls at least two sets of drive coils 102 ′ and drive coils 112 ′ installed in the same electromagnetic starter 102 by the switch device 101, and connects relatively lower impedances in parallel or in series and parallel. Thus, a switching method for switching only a part of the drive coils to energization includes the following.
(1) At least two sets of the drive coil 102 ′ and the drive coil 112 ′ are controlled by manipulating the switch device 101 in order in an artificial manner. Energization excitation is maintained by connecting relatively lower impedances in parallel or in series and switching only some of the coils to energization.

(2) Alternatively, the control of the time delay function is operated by the switch device 101 to control at least two sets of the drive coil 102 ′ and the drive coil 112 ′. By connecting relatively lower impedances in parallel or in series, the time is delayed and only some of the drive coils are switched to energization to maintain excitation.
(3) Alternatively, the drive coils 102 individually installed in two or more electromagnetic starters 102 through inspection and measurement of current values passing through the switch device 101 and transported to the drive coils 102 ′ and 112 ′. When the energization of the drive coil 112, the exciting current value to be activated ≧ the set current value, or when the state of the exciting current value ≧ the set current value exceeds the set time, the switch device 101 is driven, and at least two sets The drive coil 102 ′ and the drive coil 112 ′ are controlled, and only some of the drive coils are switched to energization to maintain excitation.

(4) Alternatively, the switch device 101 is driven and controlled by two or more of the methods (1), (2), and (3) described above.
The electromagnetic starter 102 is a commonly used normally closed or normally open electromagnetic brake, normally closed or normally open electromagnetic clutch in which at least two AC or DC electric energy drive coils 102 'and 112' are installed. , Normally closed or normally open electromagnetic switch, normally closed or normally open electromagnetic relay, normally closed or normally open electromagnetic valve, etc., device structure, electromagnet, electromagnetic lock, spiral tube coil, other drive coil, electromagnetic It is constructed by driving an electromagnetic starter with a starting effect. Alternatively, the coil is driven, and control is performed through the switch device 101 through an electromagnetic starter capable of multi-system operation by human power or mechanical force. By connecting relatively lower impedances in parallel or in series and parallel, energization, activation, and some coils are energized to save electrical energy and reduce heat generation. When at least two sets of the drive coil 102 ′ and the drive coil 112 ′ are installed in the electromagnetic starter and only a part of the drive coil is energized and energized, the acting force of the electromagnetic effect still starts energizing the electromagnetic starter. Later required operating characteristics can be satisfied.

The individual drive coil 102 ′ and the drive coil 112 ′ described above can be configured with the same or different material conductors as required, and are configured with the same or different conductor cross-sectional area conductors. And windings of the same or different number of turns.
The inrush current absorbing device 103 and the inrush current absorbing device 113 can select installation of an AC or DC inrush current absorbing device according to the standard of the electromagnetic starter 102. By connecting it separately from the drive coil in parallel, the switch coil 101 opens and closes the drive coil 102 ′ and the drive coil 112 ′. Alternatively, by connecting a relatively lower impedance in parallel or series-parallel, or when switching some coils having a relatively higher impedance to energization, the inductors formed in the drive coil 102 ′ and the drive coil 112 ′ Cooperate in absorbing back electromotive force. The configuration of the inrush current absorbing device of the present embodiment is as follows. 1. When the electric energy of the driving coil 102 ′ and the driving coil 112 ′ is AC electric energy, the AC inrush current absorber 103 to be installed is constituted by, for example, a bipolar solid phase varistor (varistor), or an impedancer, inductor, It is configured by connecting at least two types of components in a bipolar capacitor in series, parallel, and series-parallel, or it is configured by a single bipolar capacitor, or by other commonly used AC inrush current absorption circuit devices. Composed. 2. When the electric energy of the drive coil 102 ′ and the drive coil 112 ′ is DC electric energy having a lower voltage, the DC inrush current absorbing device 113 is disposed. For example, a freewheeling diode with energy storage effect is formed by diodes connected in reverse polarity in parallel, or at least two types of components among an impedancer, inductor, unipolar or bipolar capacitor are connected in series, parallel, and series-parallel. Or a single-polar or bipolar capacitor, a solid-state varistor, or another commonly used DC inrush current absorption circuit device. The apparatus of this embodiment can be selected to install or not install as necessary.

In actual operation, two sets or two or more sets of drive coils 102 ′ and 112 ′ arranged in the electromagnetic starter 102 of the present embodiment can be configured by the same or different drive coils.
At least two sets of the drive coil 102 ′ and the drive coil 112 ′ arranged in the same electromagnetic starter 102 of the electromagnetic starter of this embodiment are only partially connected by connecting relatively lower impedances in parallel or in series and parallel. This is a method of switching so that the coil is energized. Further, FIG. 4 shows a circuit diagram for controlling the drive coil by installing the position detection device 105 in the electromagnetic starter of the present embodiment. A position detection device 105 is provided for selecting a position where the dynamic state and static state of the electromagnetic starter 102 are relatively stable after starting or a position during the starting process, and the electromagnetic starter 102 applies a relatively lower impedance in parallel or in series. By connecting, the drive coil 102 'and the drive coil 112' are energized. After driving to the selected position, at least two sets of the drive coil 102 ′ and the drive coil 112 ′ installed in the same electromagnetic starter 102 are directly switched by the position detection device 105, and a relatively lower impedance is parallel or series-parallel. By switching so that only a part of the coil is energized. Alternatively, the switch device 101 is controlled through the position detection device 105, and further, the switch device 101 controls at least two sets of the drive coil 102 ′ and the drive coil 112 ′, and relatively lower impedances are connected in parallel or in series and parallel. By doing so, only a part of the coil is switched to be energized.

The position detection device 105 may be constituted by a pressure touch type electromechanical switch device or a pressure lead activation type switch, or may be constituted by an optical type, an electromagnetic sensitive type, a capacitive sensor, or other commonly used position sensing devices. The apparatus of this embodiment can be selected to be installed or not installed as necessary.
In summary, the electromagnetic starter 102 of the present embodiment starts up at least two sets of drive coils 102 ′ and 112 ′ installed in the same electromagnetic starter 102 with a relatively lower impedance in a parallel or series-parallel connection state. To obtain a larger activation force and activate the resonance characteristic. Further, control is performed through the switch device 101, and the total current of the drive coils is reduced by switching the at least two sets of the drive coils 102 'and 112' so that only a part of the drive coils are energized and excited. However, the action force of the electromagnetic effect saves electric energy and heat of the drive coils 102 ′ and 112 ′ of the electromagnetic starter 102, in addition to the electromagnetic starter 102 still satisfying the necessary operating characteristics after the start of energization. Damage can be reduced.

  101: Switch device, 102: Electromagnetic starter, 102 ': Drive coil, 103: Inrush current absorber, 105: Position detector, 112': Drive coil, 113: Inrush current absorber, Ia: Excitation current, Ib: Excitation current

Claims (7)

Control at least two sets of drive coils installed in the same electromagnetic starter through the switch device, energize and start by connecting a relatively lower impedance in parallel or in series and parallel to the electromagnetic starter After the start-up, control is further performed through the switch device, and the total current of the at least two sets of drive coils is reduced by switching only a part of the drive coils of the at least two sets of drive coils to energization excitation. However, the electromagnetic starter still satisfies the required operating characteristics after the start of energization, saves electrical energy, reduces the thermal damage of the drive coil of the electromagnetic starter, and its main configuration includes: ,
The switch device (101) operates an electromechanical switch by human power, mechanical power, flow force, and electric energy, and is configured by a relay, an electromagnetic switch, and a solid phase switch device. By controlling the operation, AC or DC electric energy is transported to the at least two sets of drive coils (102 ′) and (112 ′) installed in the same electromagnetic starter (102), and energized or disconnected. Or switching through the switch device (101), the at least two sets of drive coils (102 '), (112') of the electromagnetic starter are first set in parallel with a relatively lower impedance. Or energize and start by connecting in series and parallel, energize excitation current (Ia) and excitation current (Ib) separately, After energization and activation by connecting a lower impedance in parallel or in series and parallel, control is further performed through the switch device (101), and only a part of the at least two sets of drive coils is energized. When energizing only a part of the drive coil, the total current of the drive coil is reduced, but the working force of the electromagnetic effect is still necessary operating characteristics after starting the energization of the electromagnetic starter. Can be secured,
The electromagnetic starter (102) is constituted by the electromagnetic starter (102) in which the at least two sets of AC or DC electric energy drive coils (102 ′) and (112 ′) are installed to drive the electromagnetic start effect. Or through the switch device (101) through the drive coil (102 ′), (112 ′) and through the electromagnetic starter capable of multi-mode operation by human or mechanical force, The electromagnetic starter (102) can be energized and activated by connecting a lower impedance in parallel or in series and in parallel, and some coils are energized to save electrical energy and reduce heat generation. The at least two sets of drive coils (102 ′) and (112 ′) are installed in the drive coil (10). When '), (112') are energized and energized, the action of the electromagnetic effect can still satisfy the necessary operating characteristics after the energization start of the electromagnetic starter (102), and by connecting in parallel An electromagnetic starter characterized by maintaining some energization and start-up. The switch device (101) controls the at least two sets of drive coils (102 ′), (112 ′) installed in the same electromagnetic starter (102), so that a relatively lower impedance is parallel or series-parallel. A switching method for switching so that only a part of the drive coils (102 ′) and (112 ′) connected to the power supply includes the following:
1. By manipulating the switch device (101) in sequence by man-made, the at least two sets of drive coils (102 ′), (112 ′) are controlled, and relatively lower impedances are connected in parallel or in series, And by switching only a part of the coil to energization, energization excitation is maintained, or
2. The switch device (101) controls the time delay function to control the at least two sets of drive coils (102 ′) and (112 ′), and a relatively lower impedance is connected in parallel or in series and parallel. By delaying the time and switching only a part of the drive coil to energization, maintaining the excitation, or
3. Two or two or more electromagnetic starters (102) pass through the switch device (101), and through inspection and measurement of the current value passed through the drive coil (102 ′) and the drive coil (112 ′). The drive coil (102 ′), (112 ′) installed individually is energized and the excitation current value to be activated is greater than or equal to the set current value, and the excitation current value is greater than or equal to the set current value. When the time is exceeded, the switch device (101) is driven to control the at least two sets of drive coils (102 ′) and (112 ′), and only a part of the drive coils are switched to energization, and excitation is performed. Maintain or
4). 1 above. 2. 3. The electromagnetic starter according to claim 1, wherein the switch device (101) is driven and controlled by two or more of the methods.   The individual drive coils (102 ′) and the drive coils (112 ′) are configured by the same or different conductive materials as required, and are configured by the same or different conductive cross-sectional areas, and the same or different. 2. The electromagnetic starter according to claim 1, wherein the electromagnetic starter is constituted by windings of a number of turns.   The electromagnetic starter according to claim 1, characterized in that the at least two sets of drive coils (102 ', 112') arranged are constituted by the same or different drive coils. The at least two sets of drive coils (102 ′), (112 ′) arranged in the same electromagnetic starter (102) are only partially connected by connecting relatively lower impedances in parallel or in series-parallel. The position detector (105) is installed at a position where the dynamic and static state of the electromagnetic starter (102) is relatively stable after starting or at a selected position during the starting process. The electromagnetic starter (102) connects a relatively lower impedance in parallel or in series to energize the drive coils (102 ′), (112 ′) and drive to a selected position; Directly switching between the at least two sets of drive coils (102 ′) and (112 ′) installed in the same electromagnetic starter (102) by a position detection device (105) Switching a part of the coil to be energized by connecting a relatively lower impedance in parallel or in series, or alternatively, the switch device (101) through the position sensing device (105). Only partly by controlling and further controlling the at least two sets of drive coils (102 ′), (112 ′) by the switch device (101) and connecting relatively lower impedances in parallel or in series Switch so that the coil of
The said position detection apparatus (105) is comprised by the pressure touch type electromechanical switch apparatus or a pressure receiving lead starting type switch, or is comprised by an optical type, an electromagnetic sensitive type, and a capacitive sensor. Electromagnetic starter. Depending on the standard of the electromagnetic starter (102), installation of an AC or DC inrush current absorber can be selected, and the inrush current absorber is separately connected in parallel with the drive coils (102 ′) and (112 ′). By opening and closing the drive coils (102 ′), (112 ′) in the switch device (101), or by connecting a relatively lower impedance in parallel or in series or in parallel, or relatively higher When switching a part of the coil of impedance to energization, in cooperation with absorption of the counter electromotive force of the inductor formed in the drive coils (102 ′), (112 ′), the configuration of the inrush current absorption device is as follows. Yes,
1. When the electric energy of the drive coils (102 ′) and (112 ′) is AC electric energy, the AC inrush current absorber (103) to be installed is constituted by a bipolar solid phase varistor, or an impedancer, inductor , Constituted by connecting at least two kinds of components in a bipolar capacitor in series, parallel, and series-parallel, or constituted by a bipolar capacitor alone,
2. When the electric energy of the driving coils (102 ′) and (112 ′) is a DC electric energy having a lower voltage, a DC inrush current absorption device (113) is disposed, and an energy storage effect is achieved by a diode connected in reverse polarity in parallel. A freewheel diode is configured, or it is configured by connecting at least two types of components in an impedance, inductor, unipolar or bipolar capacitor in series, parallel, or series / parallel, or unipolar or bipolar alone 2. The electromagnetic starter according to claim 1, wherein the electromagnetic starter is constituted by a conductive capacitor or a solid phase varistor.   The same electromagnetic starter (102) of the at least two sets of drive coils (102 ′), (112 ′) is installed; a normally closed type or normally open type electromagnetic brake; a normally closed type or normally open type electromagnetic clutch; Drives the electromagnetic starting effect through a normally closed or normally open electromagnetic switch, normally closed or normally open electromagnetic relay, normally closed or normally open electromagnetic valve, electric magnet, electromagnetic lock, spiral tube coil, or other drive coil 2. The electromagnetic starter according to claim 1, comprising an application to the electromagnetic starter (102), or capable of multi-mode operation through a drive coil and human or mechanical power.

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